Department for Work and Pensions
Social Security Administration Act 1992
Extrinsic Allergic Alveolitis
Report by the Industrial Injuries Advisory Council in accordance with Section 171 of the Social Security
Administration Act 1992 reviewing the prescription of extrinsic allergic alveolitis for work involving exposure to mists from
metalworking fluids.
Cm 6867
Department for Work and Pensions
Social Security Administration Act 1992
Extrinsic Allergic Alveolitis
Report by the Industrial Injuries Advisory Council in accordance with Section 171 of the Social Security
Administration Act 1992 reviewing the prescription of extrinsic allergic alveolitis for work involving exposure to mists from
metalworking fluids.
Presented to Parliament by the Secretary of State for Work and Pensions
by Command of Her Majesty July 2006
Cm 6867
�� Crown Copyright 2006 The text in this document (excluding the Royal Arms and departmental logos) may be reproduced free of charge in any format or medium providing that it is reproduced accurately and not used in a misleading context. The material must be acknowledged as Crown copyright and the title of the document specified. Any enquiries relating to the copyright in this document should be addressed to The Licensing Division, HMSO, St Clements House, 2-16 Colegate, Norwich, NR3 1BQ. Fax: 01603 723000 or e-mail: [email protected]
Industrial Injuries Advisory Council Current members:
Professor A J NEWMAN TAYLOR, CBE, FRCP, FFOM, FMedSci (Chairman)
Professor M AYLWARD, CB, MD, FRCP, FFPM, FFOM, DDAM
Dr M G BRITTON, MD, MSc, FRCP, Dip(Ind. Health)
Dr A COCKCROFT, MD, FRCP, FFOM, MB, BS
Mrs D KLOSS, LLB, LLM
Dr I J LAWSON, MB, BS, DRCOG, MIOSH, FFOM
Mr S LEVENE, MA
Dr K T PALMER, MA, MSc, DM, FFOM, FRCP, MRCGP
Mr J PRESTON-HOOD, MBA, DipHS, MIOSH, RSP
Mr H ROBERTSON
Dr A SPURGEON, BSc, PhD, CPsychol
Ms C SULLIVAN, MA, GradDipPhys, MCSF
Mr A TURNER, TechSP
Mr F WHITTY, BA
Dr L WRIGHT, BMedSci, BM, BS, FFOM
Previous members:
Mr M PLATT, BA(Hons), MSc
Health and Safety Executive Observer: Dr J OSMAN
IIAC Secretariat
Medical & Scientific Secretary: Dr P STIDOLPH
Scientific Advisor: Dr M SHELTON and Dr S BUNN
Administrative Secretary: Mr P CULLEN-VOSS
Dr J ASHERSON, BSc, D Phil, MBA, MIOSH
1
INDUSTRIAL INJURIES ADVISORY COUNCIL
Letter to Secretary of State
Dear Secretary of State,
This report details a review in which we consider extending prescription of
extrinsic allergic alveolitis to cover work involving exposure to mists from
metalworking fluids.
The matter was brought to our attention in September 2005. We have
reviewed written and oral evidence and compiled our report, with its
Three outbreaks of extrinsic allergic alveolitis have occurred in workers from
three different factories in the UK exposed to mists generated from work with
metalworking fluids. There is a body of research evidence supporting an
association between extrinsic allergic alveolitis and exposure to mists from
metalworking fluid. Whilst the specific causal agent within the metalworking
fluid mist responsible for the outbreaks has not been identified, evidence
strongly implicates microbial contaminants. The disease is uncommon, and
diagnosis is relatively straightforward, with a strong presumption of work
causation in individually affected workers.
We recommend that occupational coverage for extrinsic allergic alveolitis be
extended to include work involving exposure to mists from metalworking fluid.
Yours sincerely,
Professor A J Newman Taylor
Chairman
Date: July 2006
2
effectiveness as an advisory council.
recommendations, in eight months. This is illustrative, I believe, of our
Summary
1. Extrinsic allergic alveolitis (EAA) is a potentially serious respiratory
disease caused by exposure to a variety of sensitizing agents, often
encountered in occupational settings. EAA is already a prescribed
disease in relation to several occupational exposures (Prescribed
Disease [PD] B6). Recently, three outbreaks of EAA have been
reported in Birmingham, South Yorkshire and Nottinghamshire at
factories where workers were exposed to mists of metalworking fluids
(MWF). This review considers extending occupational coverage for PD
B6 (EAA) to work involving exposure to mists generated during
metalworking.
2. A Health and Safety Executive (HSE) investigation concluded that
exposure to metalworking fluid mists was responsible for the
Birmingham outbreak. Investigations are current at the other outbreak
sites but exposure to mists from MWF was common to all affected
workers. Several studies of different research designs reported in the
scientific literature provide evidence to support the association of
exposure to aerosolized MWF with the development of EAA.
3. It seems likely that EAA is the outcome of microbial contamination of
MWF, which becomes aerosolised as an airborne respirable mist.
However, the specific aetiological agent in EAA associated with MWF
has been hard to pinpoint and may vary between individuals and
between outbreaks.
4. Analysis of the MWF from the three UK outbreaks showed the
presence of microbial contaminants to which a minority of the affected
workers demonstrated a serological response.
3
5. EAA is an uncommon disease, which is often occupational in
causation. The disease is relatively straightforward to diagnose by non-
invasive techniques. In cases that arise in workers exposed to mists
from MWF, the presumption of occupational attribution is strong, even
in the absence of confirmatory serological investigation.
6. On this basis IIAC recommends that the prescription for EAA (PD B6)
be extended to include work involving exposure to mists from
metalworking fluids.
4
Scope of the current review 7. In September 2005, trade union representatives brought to the
attention of the Industrial Injuries Advisory Council (IIAC) an outbreak
of EAA associated with MWF. Subsequently we learnt of two further
outbreaks of EAA which had occurred in similar circumstances. The
cases occurred in automotive parts manufacturers located throughout
the United Kingdom - in Birmingham, Nottinghamshire and South
Yorkshire. At the time of writing these outbreaks are still the focus of
HSE investigations.
8. EAA was last reviewed by the Council as part of the review of the
prescribed biological diseases (“B diseases”). This review was
published in November 2003 in the Command Paper ‘Conditions due
to Biological Agents’ Cm 5997. This current review focuses specifically
on whether there is sufficient evidence to extend the prescription of
prescribed disease (PD) B6 (EAA) to include exposure to mists from
MWF.
Method of investigation
9. IIAC referred the question of EAA and exposure to MWF to the
Council’s Research Working Group (RWG). A literature search was
carried out using the PubMed database and relevant research papers
were obtained and evaluated. The Council consulted those involved in
the investigation of the outbreaks, including HSE officials and clinicians
who had identified and researched the EAA cases from the UK
outbreaks.
5
Extrinsic allergic alveolitis – the disease
10. EAA, also known as hypersensitivity pneumonitis, is an allergic
reaction (usually mediated by T lymphocytes) in the gas exchanging
parts of the lung (alveoli) to inhaled antigens, often poorly degradable
particulate antigen, such as microbial fragments. The level of exposure
to the antigen needed to induce an allergic reaction is unclear, but in
an allergic individual exposure to the causal agent can provoke a
systemic and pulmonary reaction within hours of the inhalation. EAA
can present in an acute or a chronic form. Acute EAA is caused by
exposure to high concentrations of the antigen, typically provoking
breathlessness and flu-like symptoms. These symptoms usually
develop within 6 to 8 hours of exposure and resolve without further
exposure in 48 hours, although lung function can take weeks to
improve and months to recover. Chronic EAA can be the outcome of
repeated episodes of acute disease or of long term exposure to lower
levels of exposure to the sensitising antigen, by themselves insufficient
to cause acute EAA but sufficient to cause progressive lung damage.
Chronic EAA is characterised by the development of irreversible
pulmonary fibrosis (scarring), which causes breathlessness on
exertion. Symptoms do not resolve with avoidance of further antigen
exposure. Early diagnosis with avoidance of exposure can prevent
progression to chronic EAA.
11. EAA has a low incidence and prevalence. It was first described in dairy
farmers exposed to mouldy hay. Since then, many antigens, the
majority of fungal origin, have been associated with the development of
EAA. These have common features, such as small easily respirable
size (1-5�), presence in high levels during exposure, and poor
degradability. Many of the antigens associated with EAA are
encountered in an occupational setting (see table below).
6
Disease Source
Farmer’s lung Mouldy hay, straw, grain
Bird fancier’s lung Avian excreta and bloom
Bagassosis Mouldy bagasse
Maltworker's lung Mouldy maltings
Mushroom worker’s lung Spores released during spawning
Ventilation pneumonitis Contamination of air conditioning units
EAA – the prescribed disease
12. EAA has been a prescribed disease since 1964 for farmer’s lung due
to “exposure to the dust of mouldy hay or other mouldy vegetable
produce”. The terms of prescription were extended in 1983. The
current terms of prescription are given in the table below.
Prescribed disease Occupation
B6 Extrinsic allergic
alveolitis
Exposure to moulds or fungal spores or
heterologous proteins by reason of
employment in a) agriculture, horticulture,
forestry, cultivation of edible fungi or
maltworking; or b) loading or unloading or
handling in storage of mouldy vegetable
matter or edible fungi; or c) caring for or
handling birds; or d) handling bagasse.
13. These terms were last reviewed in November 2003. At this time a
literature search was undertaken, experts in the field were consulted
and a call for evidence was made to the public; but no evidence was
found to suggest the terms of prescription for PD B6 should be
amended. The recent UK outbreaks of EAA among autoworkers have
prompted a reassessment of the case.
7
Metalworking fluid – the basics
14. Metalworking fluid (MWF) is commonly used wherever metal is cut,
drilled, milled or shaped with cutting tools and acts to dissipate heat,
lubricate, remove debris (or ‘swarf’) and protect tools from corrosion.
There are three types of MWF:
a. Straight oils – pure petroleum oils.
b. Semisynthetic fluids – emulsions of petroleum in a water base.
c. Synthetic fluids – emulsions of synthetic oils in a water base.
15. The fluid is generally applied to the material being worked on as a jet
or spray. The drained fluid is recycled into a sump where it is filtered
before being pumped back to the work area. Aerosols are formed by
three main processes:
a. impaction – small droplets are formed as the MWF is pumped at
high velocity onto the work area and become aerosolised upon
hitting a moving or rotating surface.
b. centrifugal force – aerosols are generated by rotating work
pieces.
c. evaporation/condensation – hot surfaces cause evaporation of
MWF; as the vapour moves away to cooler areas it condenses
to form small droplets.
16. MWF is able to sustain growth of various bacterial and fungal species.
Microbial contamination renders MWF less effective. Thus, biocides
(such as bromopol, morpholine and triazine compounds) are added to
the fluid to inhibit bacterial and fungal growth. However, the fluid is
never ‘sterile’ and Pseudomonas species, Proteus mirabilis,
Enterobacter cloacae, Escherichia coli, Klebsiella pneumoniae
Mycobacterium species and various fungal species such as Fusarium,
Cephalosporium, Candida and Acinetobacter have been identified as
8
contaminants. The ‘Monday morning’ or ‘rotten egg’ smell produced
when workers start up machines after a weekend is due to heavy
17. MWF also contain corrosion inhibitors, such as borates and
phosphates and surfactants for lubrication properties. Thus, in-use
MWF represents a complex mixture of constituents, some of which can
be biologically active.
18. Exposure to the mist of MWF has been associated with various
respiratory symptoms such as work-related asthma, chronic bronchitis
and, in recent years, EAA.
EAA and metalworking fluids - analysis of the literature
19. The association between EAA and exposure to MWF was initially
described by Bernstein et al. (1995) in an outbreak in 6 American auto-
parts manufacturing workers. The phrase ‘machine operator’s lung’
was coined to describe the disease in line with other occupational
causes of EAA. Since this first report, there have been a number of
documented outbreaks of EAA associated with exposure to MWF
within auto-parts manufacturing settings, mostly in America.
20. The cases of EAA described in the literature as occurring in
association with MWF shared similar clinical features. They had
abnormal lung function tests, abnormal chest radiographs and
symptoms of lung disease such as breathlessness, cough, wheeze,
fatigue and fever. In certain cases, lung biopsy (the most definitive
investigation) confirmed the characteristic pathological changes of
EAA. Symptoms deteriorated if the worker was not removed from
exposure to MWF and sometimes led to permanent decrements in lung
function. Conversely, when affected workers were removed from the
source of exposure their symptoms stabilized or improved.
bacterial growth depleting oxygen and releasing hydrogen sulphide.
9
21. An exposure-response relationship has been demonstrated between
the level in air of MWF aerosols and the risk of development of EAA. In
one outbreak reported in the literature cases were categorised in low,
medium and high exposure, as judged by the levels of MWF aerosols
generated at different locations. The greater the exposure, the greater
the proportion of individuals with EAA.
22. Most evidence points to microbiological contamination of the fluid in-
use as the cause of adverse health effects. Several bacterial and
fungal species have been isolated from MWF, some of which could be
causal. In America, evidence suggests that the nontuberculous
mycobacterial species, Mycobacteria immunogenum or Mycobacteria
chelonae in contaminated MWF are involved in the toxic pulmonary
changes associated with EAA. Inhalation of aerosols of mycobacterial
species are also implicated in another form of EAA – ‘hot tub lung’.
EAA-like pneumonitis has been induced in mice with heat-killed and
lysed Mycobacterium immunogenum. The pathologic changes induced
were indistinguishable from those caused by M. immunogenum-
contaminated MWF, suggesting that this nontuberculous
mycobacterium could be involved in the EAA outbreaks at the
automotive parts plants.
23. Mycobacterial species have been less commonly isolated from
contaminated MWF in European EAA outbreaks. This may reflect a
difference in microbial flora or could be due to different culturing
techniques. Microbial analyses of European MWF have yielded
primarily pseudomonads, rather than mycobacteria.
10
24. It has been suggested that the use of biocides in suppressing microbial
growth may alter the natural diversity of the microbial flora of MWF.
The biocides used predominantly target Gram negative bacteria,
allowing other species such as mycobacteria to flourish. As
mycobacteria have been implicated as a causal agent the use of
biocides might indirectly influence the development of EAA in workers
exposed to treated MWF. Biocides themselves have also been linked
with the ability of MWF to cause pulmonary irritation in animal studies.
25. Several studies have suggested that the endotoxin present in
microbially contaminated MWF could elicit EAA-like inflammatory
responses. Endotoxin is a lipopolysaccharide released from the cell
walls of Gram negative bacteria when the microbes are killed or lysed.
In-use MWF has been shown to elicit an inflammatory response in in-
bred endotoxin sensitive CH3 mice whereas endotoxin resistant CH3
mice showed no response. It has been proposed that the toxicity of
biocides in used MWF could be due to the release of endotoxin
following the death of contaminating bacteria.
26. However, confirming the exact cause of symptoms is not
straightforward. In particular, the relation between contaminants,
serological response, and health complaints is complex. Contaminants
of MWF can be found in the absence of EAA, asymptomatic individuals
can show a serological response, and in confirmed cases a serological
response is often absent. The biocides and other agents added to
discourage microbial contamination may hamper detection of the
causal agent (the antigenicity of a microbe can outlive its capacity to
survive and grow in culture). Thus, none of the previously published
studies has clearly identified the aetiological agent in MWF involved in
any of the reported EAA outbreaks. The findings in the UK outbreak
are described below.
11
27. There is also no simple relationship between the concentration of
microbes in contaminated MWF sumps and the degree of airborne
exposure. Instead, this is a function of the ability to form aerosols.
28. Maintaining the cleanliness of MWF can be difficult, where highly
adaptable, rapidly growing microbes are involved. Studies have shown
that after system cleaning, microbial recontamination is common and
fairly rapid.
The UK outbreak
29. There have been three outbreaks of respiratory disease in engineering
works in the UK – in Birmingham, Barnsley in South Yorkshire and
Pinxton in Nottinghamshire. Work involving exposure to mists from
MWF was common to all of the cases arising in the outbreaks.
30. Information from the lead HSE investigators in May 2006 indicates that
in the Nottinghamshire outbreak, there have so far been some
confirmed diagnoses of occupational asthma and EAA with an
estimated forecast, after clinical investigations are completed, of about
13 cases in total. Some workers are thought to be suffering from both
diseases.
31. In South Yorkshire there has so far been 1 confirmed diagnosis of
EAA, with another possible case under consideration; in addition, after
clinical investigations are completed, there may be 2 -3 cases of
occupational asthma, although extensive health surveillance has only
just started.
12
32. The outbreak in Birmingham was the subject of clinical investigation,
and an HSE report outlining the emerging lessons was published in
April 2006. Outbreak cases shared similar clinical features between the
different sites, which were typical of EAA, such as improvement of
respiratory symptoms after time away from the exposure (e.g. at the
weekend) and worsening of symptoms upon return to work (e.g. at the
start or during the working week); decreased lung function
measurements and characteristic radiological and histological changes
of EAA. Several affected workers (11 of the 24 cases) were also
diagnosed as having asthma.
33. Microbiological analyses of the MWF sumps in the Birmingham
outbreak revealed Acinetobacter and Ochrobacter species. The levels
of fungal contamination were not elevated above background
environmental levels and no mycobacterial contamination was found.
Endotoxin did not appear to be a significant factor in the outbreaks.
Despite a decrease in cases of respiratory disease following the clean-
up, the concentrations of endotoxin remained similar before and after
the clean-up operation.
34. A summary of the serological investigation undertaken for the
Birmingham outbreak is available at http://www.hse.gov.uk/. In brief:
- three workers (out of 12 workers) diagnosed with EAA and two (out of
72 workers) with occupational asthma had a serological response to
crude MWF extract, taken from a large sump (the Mayfram sump) in
April 2004;
- three workers diagnosed with EAA had a serological response to
Ochrobactum anthropi and seven workers with EAA had a serological
response to Acinetobacter species, both bacteria present as DNA
fragments in samples from the Mayfram sump taken in April 2004;
13
- in November 2005 one worker diagnosed with EAA and another with
occupational asthma showed reactions in the lungs when challenged
with samples of used MWF taken from the Mayfram sump in
September 2004, but no reaction when challenged with samples of
unused MWF of the type used in the same sump;
- serological evidence of a response to bacterial contaminants of used
MWF was observed in a minority of those diagnosed with EAA.
The case for prescription
35. When considering a disease, and an accompanying occupational
exposure, for prescription, IIAC must adhere to the legal requirements
for prescription (see Appendix, paragraph 43). In brief, a disease may
only be prescribed if there is a recognised risk to workers in an
occupation, and the link between disease and occupation can be
established or reasonably presumed in individual cases. Attribution is
usually based on epidemiological evidence, but can be on the basis of
the clinical features of individual cases.
36. EAA is an uncommon disease reported infrequently to national
surveillance schemes. Cases which occur in an occupational setting do
so in response to airborne antigens in the workplace.
37. The particulars of the three UK outbreaks, and findings on EAA from
the wider published literature, indicate that mists of MWF are a
potential cause of EAA. Where EAA occurs in a worker exposed to
mists of MWF there is a strong presumption of occupational attribution
in the individual case.
38. The diagnosis of EAA is reasonably straightforward and usually
possible by non-invasive means. Its differential diagnoses (e.g.
cryptogenic fibrosing alveolitis and sarcoidosis) are sufficiently
uncommon that a compatible clinical appearance in a worker exposed
to the mist of MWF is very likely to be work-related EAA.
14
39. In the majority of EAA cases caused by agents already prescribed,
prescription has been supported by the demonstration in individual
cases of specific serological response to the antigens in question.
However, its absence in many cases of MWF-associated EAA, and the
uncertainty about the exact constituents of MWF responsible for
symptoms, do not preclude prescription. There can be little doubt that
exposure to aerosolised mists of MWF has been the cause of
occupational occurrences of EAA.
Recommendations
40. IIAC recommends that the terms of prescription for PD B6 be extended
to include work involving exposure to metalworking fluid mists as
shown in the table below.
Prescribed disease Occupation
B6 Extrinsic allergic
alveolitis
Exposure to moulds or fungal spores or
heterologous proteins by reason of
employment in a) agriculture, horticulture,
forestry, cultivation of edible fungi or
maltworking; or b) loading or unloading or
handling in storage of mouldy vegetable
matter or edible fungi; or c) caring for or
handling birds; or d) handling bagasse; or
e) work involving exposure to
metalworking fluid mists.
15
Appendix
The Industrial Injuries Disablement Benefit Scheme 41. The Industrial Injuries Disablement Benefit (IIDB) scheme provides a
benefit that can be paid to an employed earner because of an industrial
accident or PD. The benefit is non-contributory and ‘no-fault’, and is
paid in addition to other incapacity and disability benefits. It is tax-free
and administered by the Department for Work and Pensions (DWP).
The Industrial Injuries Advisory Council 42. IIAC is an independent statutory body set up in 1946 to advise the
Secretary of State for Social Security on matters relating to the IIDB
Scheme. The major part of the Council’s time is spent considering
whether the list of prescribed diseases for which benefit may be paid
should be enlarged or amended.
The legal requirements for prescription 43. The Social Security Contributions and Benefits Act 1992 states that the
Secretary of State may prescribe a disease where he is satisfied that
the disease:
a) ought to be treated, having regard to its causes
and incidence and any other relevant
considerations, as a risk of the occupation and
not as a risk common to all persons; and
b) is such that, in the absence of special
circumstances, the attribution of particular
cases to the nature of the employment can be
established or presumed with reasonable
certainty.
16
44. In other words, a disease may only be prescribed if there is a
recognised risk to workers in an occupation, and the link between
disease and occupation can be established or reasonably presumed in
individual cases.
45. In seeking to address the question of prescription for any particular
condition, the Council first looks for a workable definition of the
disease. The Council then searches for a practical way to demonstrate
in the individual case that the disease can be attributed to occupational
exposure with reasonable confidence. For this purpose, reasonable
confidence is interpreted as being based on the balance of
probabilities according to the available evidence in the scientific
literature. It may be possible to ascribe a disease to a particular
occupational exposure in two ways – from specific clinical features of
the disease or from epidemiological evidence that the risk of disease is
at least doubled by the relevant occupational exposure.
Clinical features
46. For some diseases attribution to occupation may be possible from
specific clinical features of the individual case. For example, the proof
that an individual's dermatitis is caused by his occupation may lie in its
improvement when he is on holiday, and regression when he returns to
work, and in the demonstration that he is allergic to a specific
substance with which he comes into contact only at work. It can be that
the disease only occurs as a result of an occupational hazard (e.g. coal
workers' pneumoconiosis).
17
Doubling of risk
47. Other diseases are not uniquely occupational, and when caused by
occupation, are indistinguishable from the same disease occurring in
someone who has not been exposed to a hazard at work. In these
circumstances, attribution to occupation on the balance of probabilities
depends on epidemiological evidence that work in the prescribed job,
or with the prescribed occupational exposure, increases the risk of
developing the disease by a factor of two or more. The requirement for,
at least, a doubling of risk is not arbitrary. It follows from the fact that if
a hazardous exposure doubles risk, for every 50 cases that would
normally occur in an unexposed population an additional 50 would be
expected if the population were exposed to the hazard. Thus, out of
every 100 cases that occurred in an exposed population, 50 would do
so only as a consequence of their exposure while the other 50 would
have been expected to develop the disease, even in the absence of
the exposure. Therefore, for any individual case occurring in the
exposed population, there would be a 50% chance that the disease
resulted from exposure to the hazard, and a 50% chance that it would
have occurred even without the exposure. Below the threshold of a
doubling of risk only a minority of cases in an exposed population
would be caused by the hazard, and individual cases therefore could
not be attributed to exposure on the balance of probabilities. The
epidemiological evidence required should ideally be drawn from
several independent studies, and be sufficiently robust that further
research at a later date would be unlikely to overturn it.
48. The evidence on MWF-associated EAA is such that attribution can be
made, or reasonably presumed, in the individual case on the basis of
the clinical features.
18
Prevention
49. MWF is covered under the Control of Substances Hazardous to
Health (COSHH) 2002 Regulations. There are no exposure limits given
for exposure to MWF in the UK but the HSE has published guidance
about what the law requires by way of preventive measures.
Prevention requires the completion of risk assessments, the
minimization of fluid contamination, including bacterial contamination,
the prevention or control of mists and health surveillance where there
is exposure to mist. Detailed guidance on how to do this can be found
at hse.gov.uk/metalworking.
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